The week’s UK Arabidopsis research roundup includes seven papers from groups who work on a range of topics.

Firstly Antony Dodd (Bristol) investigates the role of sugar signaling during hypocotyl elongation and provides an audio description of this groups work. Secondly Mike Holdsworth (Nottingham) leads a paper that demonstrates the importance of the N-rule pathway in the response to abiotic stresses. Thirdly are a set of papers that have developed models on three different topics. Mike Blatt’s group at Glasgow University has a cross-scale model that is applied to stomatal opening whilst Stan Maree and Veronica Griensien (JIC) use modeling to predict how the topology of pavement cells is determined. Finally Arabidopsis is used as an example that fits a model that investigates how critical mutation rate (CMR) changes with population size. In the sixth paper Lorraine Williams and colleagues (University of Southampton) investigate the function of a rice transport protein involved in manganese tolerance by expressing it in Arabidopsis. The final paper from Jerzy Paszkowski (SLCU) outlines a novel screening strategy for retrotransposons and the identification of an ecotype specific element.

Open Access
This UK-wide collaboration is led by Anthony Dodd at the University of Bristol and has looked at the factors that control hypocotyl elongation in response to sugar signalling. This response is integrated through the sugar-signalling hub, SnRK1 and is regulated by trehalose-6-phosphate (Tre6P). They also integrate hormone signalling and the influence of diurnal rhythms into the control of this process, importantly showing that the ubiquitous sugar regulator hexokinase is not involved in this process.

Open Access
Mike Holdsworth (University of Nottingham) is the corresponding author of this collaboration with colleagues from Sheffield, Spain and Taiwan that investigates how the N-rule degradation pathway acts a sensor of general abiotic stress in both Arabidopsis and Barley. These responses are integrated through degradation of the group VII Ethylene Response Factor transcription factors (ERFVIIs) family via direct and indirect pathways. In addition they link ERFVII activity with chromatin-remodeling ATPase BRAHMA providing evidence for a single mechanism that links the responses to a number of environmental signals.

Open Access
Mike Blatt (University of Glasgow) leads this collaboration with researchers at the Universities of Cambridge and Essex. They have developed the OnGuard2 quantitative systems platform that integrates numerous parameters that control guard cell dynamics across many scales including at molecular, cellular, tissue and canopy levels. They experimentally demonstrate that OnGuard2 faithfully reproduces the kinetics of real stomatal movement and therefore that this modeling is able to bridge the micro-macro divide.

Stan Maree and Veronica Griensien (John Innes Centre) lead this study that has looked at the patterning of 50000 Arabidopsis pavement cells to understand the topological signatures that exist in this population. They have developed a heuristic cellular division rule to produce a model that can reproduce their observations by predicting how these cells divide. They confirmed their model by tracking 800 mitotic events, allowing them to conclude that distinct topology is not a direct consequence of the jigsaw-like shape of the cells, but rather owes itself to life-history-driven process, with limited impact from cell surface mechanics.

In this study a team of computational biologists from Keele, Middlesex and Manchester have used Arabidopsis as an exemplar to understand how critical mutation rate (CMR) provides insights into the shift between survival-of-the-fittest and survival of individuals with greater mutational robustness. They have produced a simulation for these parameters that predicts outcomes for a range of biological organisms, showing that CMR decreases with reduced population size. They suggest that the model can be used to understand the conservation strategies exhibited in populations that are approaching extinction.

Farthing EC, Menguer PK, Fett JP, Williams LE (2017) OsMTP11 is localised at the Golgi and contributes to Mn tolerance. Sci Rep. doi: 10.1038/s41598-017-15324-6Lorraine Williams (University of Southampton) and her colleagues have identified a transporter protein from rice, OsMTP11 that is involved in mangenase tolerance. They show that heterologous expression of this protein is able to rescue the manganese sensitive phenotype of Arabidopsis mtp11-3 knockouts. They show that OsMTP11 localises to the Golgi and have also conducted site directed mutagenesis to identify key residues that are important for the function of this protein.

Jerzy Paszkowski (SLCU) leads this single-figure short manuscript that has characterised the population of retrotransposons in Arabidopsis. They develop a novel cost-effective screening strategy that allows them to identify sequences found on extrachromosomal DNA (ecDNA), which includes a retroelement found in Lansberg erecta but not in the reference genome ecotype Col-0.

The first Arabidopsis Research Roundup of 2017 includes a wide range of studies that use our favourite model organism.

Firstly Kerry Franklin (University of Bristol) is the corresponding author on a paper that describes the complex interaction between the responses to sunlight and heat. Secondly Paul Dupree (University of Cambridge) leads a study that defines the important structural relationship between xylan and cellulose. Thirdly members of Gos Micklem’s group in Cambridge are part of the Araport team that present their ThaleMine tool.

Richard Napier (University of Warwick) is a co-author on the fourth paper that introduces a new chemical tool for study of the auxin response. The penultimate paper includes Matthew Terry (University of Southampton) on a paper that investigates the role of a Fe-S-containing protein cluster in chlorophyll biosynthesis and finally there is a methods paper from Stefanie Rosa in Caroline Dean’s lab at the John Innes Centre that describes the use of FISH to detect single molecules of RNA.

This collaboration between the research groups of Kerry Franklin (University of Bristol) and Gareth Jenkins (University of Glasgow) looks at how the perception of UV-B light inhibits the morphological changes that occur in response to increased temperatures (thermomorphogenesis). This response includes induced hypocotyl elongation, which is mediated via PIF4 and various players in the auxin response. Interestingly the authors show that UV-B light perceived by UVR8 attenautes this response by preventing PIF4 abundance and by stabilising the the bHLH protein LONG HYPOCOTYL IN FAR RED (HFR1) protein. These results suggest that there exists a precise mechanism for fine-tuning the growth responses that occur in sunlight that would usually include both increased temperature and UV-B irradiation.

http:/​/​dx.​doi.​org/10.1038/ncomms13902 Open Access
In this paper Paul Dupree (University Cambridge) collaborates both with colleagues in Spain and with his father Ray, who is a physicist at the University of Warwick. They use NMR to perform a structural analysis of xylan, which is the most prevalent non-cellulosic polysaccharide in the cell wall matrix and binds to cellulose microfibrils. Whereas in solution xylan forms a threefold helical screw, it flattens into a twofold helical screw ribbon to closely bind to cellulose when in the cell wall. They used the cellulose-deficient Arabidopsis irx3 mutant to show that the xylan two-fold screw confirmation breaks down when it cannot bind cellulose. The authors state that this finding has important implications in our understanding of the formation of the cell wall and perhaps more importantly how it might be broken down during attempts to maximise economic usages of plant biomass.

This paper is presented by the Araport team, which is based in the USA but includes representatives from Gos Micklem’s lab in University of Cambridge. They outline the functionality of the ThaleMine data warehouse which is an important component of the tools included on Araport (https://www.araport.org/). ThaleMine collects a wide variety of data from public datasets and presents it in a easy-to-interrogate form, facilitating the experiments of both lab-based researchers or bioinformaticians. This tool is build upon the InterMine software framework, which has been widely adopted across other model organisms.

Chris Town and Sergio Contrino provided a hands-on workshop describing the tools on Araport in last year GARNet2016 meeting and their workshop materials can be downloaded here.

Steenackers WJ, Klíma P, Quareshy M, Cesarino I, Kumpf RP, Corneillie S, Araújo P, Viaene T, Goeminne G, Nowack MK, Ljung K, Friml J, Blakeslee JJ, Novák O, Zažímalová E, Napier RM, Boerjan WA, Vanholme B (2016) cis-cinnamic acid is a novel, natural auxin efflux inhibitor that promotes lateral root formation. Plant Physiol. http:/​/​dx.​doi.​org/pp.00943.2016 Open Access
This pan-european collaboration includes members of Richard Napier’s lab at the University of Warwick. They outline the activity of a novel inhibitor of auxin efflux transport called cis-cinnamic acid (c-CA). When c-CA is applied to growth media plants appears to exhibit an auxin-response phenotype yet these experiments show that c-CA is neither an auxin or anti-auxin and in fact blocks local auxin efflux, thus causing buildup of cellular auxin. This effect does not occur with t-CA showing specificity for c-CA and it does not affect long distance auxin transport, which occurs through the phloem. Therefore this paper presents a new pharamolgical tool for the study of in planta auxin transport and homeostasis.

Matthew Terry and Mike Page (University of Southampton) are co-authors on this Japanese-led study that investigates the function of the SUFB subunit of the SUFBCD iron-sulfur cluster. These Fe-S protein clusters play roles in many metabolic processes and the SUFB mutant hmc1 exhibits a defect in chlorophyll biosynthesis due to an accumulation of Mg-containing biosynthetic intermediates. In addition both SUFC- and SUFD-deficient RNAi lines accumulated the same Mg intermediate indicating that the SUFBCD cluster is responsible for this step necessary for chlorophyll production.

Open Access
This paper from is lead by Stefanie Rosa in Caroline Dean’s lab at the John Innes Centre describes a novel method for imaging single molecules of RNA by smFISH. They analyse the localisation of both nascent and mature mRNAs, allowing for analysis of the location of RNA processing and translation.<

A mixed selection of research in this UK Arabidopsis Roundup. Firstly a study from Stefan Kepinski and Mark Estelle that adds another layer of understanding to the regulation of the auxin response. Enrique Lopez-Juez leads a study into signaling between the nucleus and chloroplast while Tracey Lawson contributes to an investigation into role of starch metabolism in guard cells. Fran Maathuis and co-worker looks at differences in vacuolar transport between Arabidopsis ecotypes while Alan Marchant is involved in a study of cell wall pectins. Finally William Amos has uses the 1001genomes project to investigate heterozygote instability (HI).

Stefan Kepinski (Leeds) is the UK lead on this collaboration with Mark Estelle from UCSD and it continues their previous work that investigates the much-studied auxin receptor TIR1. Arabidopsis seedlings grown at 29C show auxin-dependent hypocotyl elongation although the molecular mechanism behind this response has remained opaque. In this study they show that in high temperatures TIR1 accumulates in a manner dependent on the molecular chaperone, HSP90. In addition HSP90 and the co-chaperone SGT1 directly interact with TIR1. Inhibition of HSP90 results in degradation of the TIR1 and causes a range of auxin-mediated growth processes at both high and low temperatures. This study adds another level of complexity to the molecular basis of the auxin response.

The work comes exclusively from the lab of Enrique Lopez-Juez at Royal Holloway and investigates at the expression of photosynthesis-associated nuclear genes (PhANGs). This expression is dependent on light as well as plastid-to-nucleus “biogenic” communication signals and causes the assembly of photosynthesis component chloroplasts. The authors investigate the factors that control the activity of the Lhcb promotor in the light and the dark, both in angiosperms and gymnosperms. They propose that suppression of PhANG responses has contributed to the evolution of light-controlled chloroplast biogenesis.

Horrer D, Flütsch S, Pazmino D, Matthews JS, Thalmann M, Nigro A, Leonhardt N, Lawson T, Santelia D (2015) Blue Light Induces a Distinct Starch Degradation Pathway in Guard Cells for Stomatal Opening. Current Biology http://dx.doi.org/10.1016/j.cub.2015.12.036Tracey Lawson (University of Essex) is the UK lead on this UK-French-Swiss study that uses the stomatal guard cell experimental system to investigate the role of carbon metabolism in the response to blue light. Interestingly guard cells differ from other leave tissues in that they contain starch at the end of the night. However this starch store is rapidly degraded within 30minutes of light and is important for stomatal opening and subsequent biomass production. This starch degradation involves action of two enzymes, β-amylase 1 (BAM1) and α-amylase 3 (AMY3) that do not function during night time starch degradation in other tissues. This process is coordinated by blue light signalling and correlates with the activity of a plasma membrane ATPase. This study adds yet another level of our understanding into the mechanism of stomatal opening. See image for a proposed model of this process (from Cell Press).

Fran Maathuis (University of York) is the leader on this study that assesses the transport properties of two different vacuolar-localised AtTPK1 alleles identified for a study of natural variation in Arabidopsis. They use patch-clamping the interrogate the difference between these proteins from Lansberg (Ler) and Kas-2 ecotypes, when they showed different levels of Ca(2+) dependence. This coincided with lower water loss in either the presence of absence of ABA and higher Ler AtTPK1 activity at similar cytoplasmic [Ca]. The authors present a model that helps to explain their findings.

The majority of the authors on this Technical Advance are from French institutions but also includes UK plant scientist Alan Marchant (University of Southampton). They investigate the chemistry of Arabidopsis and tobacco cell walls, specifically looking at the incorperation of 3-deoxy-D-manno-oct-2-ulosonic acid (Kdo), a monosaccharide that is only found the cell wall pectin rhamnogalacturonan-II (RG-II). They show that RG-II is found in the primary cell wall including within the root elongation zone. Finally they show that monitoring of Kdo is an effective way to study the synthesis and redistribution of RG-II during root growth.

This study is led by Professor William Amos who is based in the Zoology department at Cambridge. He is not usually a plant science researcher but used the excellent 1001genome project to investigate heterozygote instability (HI) in Arabidopsis. He looked at AC microsatellite sequences from over 1100 genome sequences and used rare alleles as a surrogate for more recent mutations, ultimately showing that rare alleles are more likely to occur at locus-population combinations with higher heterozygosity even when all populations carry exactly the same number of alleles. This shows that local heterozygosity causes more mutations and represents a positive feedback loop.

This weeks Arabidopsis Research Roundup contains four papers each with a different focus. Firstly is a large-scale investigation that attempts to define the transcriptional changes that occur in response to bacterial infection. Second is a study that investigates a newly proposed role for the chloroplast chaperone Hsp93. Thirdly is another piece of work that also involves University of Oxford researchers and investigates the genetic networks that control leaf morphology. Finally is an updated plant-specific protocol for the commonly used technique of Chromatin Immunoprecipitation.

This ‘Large Scale Biology’ publication is a collaboration between the Universities of Exeter and Warwick, led by Murray Grant and current GARNet Advisory board member Katherine Denby. This study investigates the transcriptional changes that occur over a long time course in response to infection by the pathogen Pseudomonas syringae pv tomato DC3000. The authors aim to differentiate between the changes associated with endogenous microbial-associated molecular pattern (MAMP)-triggered immunity (MTI) and those orchestrated by pathogen effectors. The responses to pathogenic and non-pathogenic P.syringae were compared and using novel computational analysis, it was shown that the majority of gene expression changes that contribute to disease or defense responses occurred within 6hour post-infection, well before pathogen multiplication. Broadly it was found that chloroplast-associated genes are suppressed by a MAMP-triggered response, presumably to restrict nutrient availability. Ultimately this manuscript identified specific promotor elements that are involved in either the MTI response or utilised by the infecting bacteria.

Corresponding author Professor Murray Grant kindly takes ten minutes to discuss the finding of this paper and the community resource that it represents. He also discusses another paper involving the Jasmonate response that resulted from this dataset and was recently highlighted in the Research Roundup. Interview end at 11m10s.

Paul Jarvis (Oxford) is the corresponding author on this study in which his lab collaborates with Swedish researchers to investigate the role of the Hsp93/ClpC chaperone protein in protein import into the chloroplast. This recently postulated role for this protein has not yet been experimental tested so they generated a hsp93[P-] mutant that lacked a functional ClpP-binding motif (PBM), which confers the already determined role for Hsp93 in proteolysis that occurs in the chloroplast stroma. The hsp93[P-] mutant localises to the chloroplast envelope and associates with TIC transport machinery but was unable to complement the phenotypes of a hsp93 null mutant. This showed that the PBM domain was essential for its function. Expression of the Hsp93[P-] mutant in the hsp93 null background did not improve protein import so the authors concluded that these results do not confirm this newly postulated role for the protein and they suggest that its functional role occurs immediately after its substrate had been transported into the chloroplast.

The study includes researchers from Oxford and Southampton Universities in collaboration with those from Italy, France and Germany in work that is led by Angela Hay and Miltos Tsiantis, who were both previously based in Oxford. This is familiar territory for this group as they compare leaf development between Arabidopsis, which has simple leaves, and the related , Cardamine hirsuta, which has dissected leaves. In this new work they transfer the SHOOTMERISTEMLESS (STM) and BREVIPEDICELLUS (BP) homeobox genes between the two species and investigate their ability to modify leaf form. In Cardamine, expression of BP is controlled by crosstalk between the microRNA164A (MIR164A)/ChCUP-SHAPED COTYLEDON (ChCUC) module and ChASYMMETRIC LEAVES1 (ChAS1) gene. However this regulatory network does not function in Arabidopsis and therefore leads to the establishment of differing regulatory networks that the authors propose are responsible for the alterations in organ geometry.

Levi Yant is a new member of faculty at the John Innes Centre and is the lead author on this paper that introduces an updated protocol for Chromatin Immunoprecipitation in Plants (ChIP). They have used this technique in his lab to identify target genes for a number of transcriptional regulators that are involved in Arabidopsis floral development.

This Arabidopsis Research Roundup has five papers that includes two from the John Innes Centre and two from the University of Edinburgh. Firstly Kristen Bomblies’s group at the JIC have investigated the relationship between temperature and meiotic recombination rates. Secondly Veronica Grieneisen and Stan Maree have developed a mathematical model to characterise cell morphologies taken[…]

The first two papers in this weeks Arabidopsis Research Roundup investigate different aspects of the plants response to temperature fluctuations. Firstly Lars Ostergaard (JIC) looks at the influence of temperature in the control of fruit dehiscence whilst Phil Wigge (SLCU) investigates crosstalk between chloroplast and nuclear signaling. The third paper from Ian Henderson (University of[…]

Charles Melnyk discusses a new paper published in PNAS that describes the molecular events that occur during grafting. The paper is entitled ‘Transcriptome dynamics at Arabidopsis graft junctions reveal an intertissue recognition mechanism that activates vascular regeneration‘ http://blog.garnetcommunity.org.uk/wp-content/uploads/2018/03/Melynk_180301.mp3Podcast: Play in new window | DownloadSubscribe: iTunes | Android | RSS

This edition of the Arabidopsis Research roundup beings with a study from SLCU that provides a molecular context to the changes that occur at graft junctions. Second is a study from Edinburgh that reports on the findings of a citizen science plant phenotyping project. Third are two studies from the John Innes Centre that follow-on[…]

This weeks Arabidopsis Research Roundup begins with a study from SLCU that investigates the interaction between nitrate and cytokinin signaling in the shoot meristem. Next is research from Sheffield that studies changes to the macromolecular composition of the photosynthetic apparatus following the transition from dark to light. Third are three papers that include University of[…]

GARNet with support from the Bristol Centre for Agricultural Innovation and New Phytologist are organising a Gene Editing Workshop that will take place at the University of Bristol on March 26th-27th 2018. This workshop is designed to encourage interactions and discussion about the use of CRISPR-Cas9 gene editing in plant systems. We are encouraging ECRs[…]

The cellular mechanics of auxin perception and signaling have been well studied over the past two decades. The pivotal interaction that controls this activity involves the auxin-dependent contact between the TIR1 receptor and a family of transcriptional regulators called AuxIAA proteins. This interaction has been characterised at a structural level with the auxin indole-3-acetic acid[…]

This weeks Arabidopsis Research Roundup begins with two papers from Royal Hollaway University of London that investigate the factors that control leaf development in the dark and the control of PIN1 phosphorylation. Third is a paper from Bristol that demonstrates the translation of research from Arabidopsis into coriander with regard the control of the response[…]

Enrique Lopez-Juez (Royal Holloway University of London) introduces a paper from that attempts to answer a critical question in plant science ‘Why do plants makes leaves in the dark‘? http://www.plantphysiol.org/content/early/2017/12/28/pp.17.01730.long http://blog.garnetcommunity.org.uk/wp-content/uploads/2018/01/Lopez_180116.mp3Podcast: Play in new window | DownloadSubscribe: iTunes | Android | RSS